A Study of Gravitational Lens Chromaticity using Ground-based Narrow Band Photometry

Abstract

We present observations of wavelength-dependent flux ratios for four gravitational lens systems (SDSS~J1650+4251, HE~0435-1223, FBQ 0951+2635, and Q~0142-100) obtained with the Nordic Optical Telescope. The use of narrowband photometry, as well as the excellent seeing conditions during the observations, allows us to study their chromatic behavior. For SDSS~J1650+4251, we determine the extinction curve of the dust in the zL=0.58 lens galaxy and find that the 2175 \ feature is absent. In the case of HE~0435-1223, we clearly detect chromatic microlensing. This allows us to estimate the wavelength-dependent size of the accretion disk. We find an R-band disk size of rRs=135 light days for a linear prior on rRs and rRs=76 light days for a logarithmic prior. For a power-law size-wavelength scaling of rsλp, we were able to constrain the value of the exponent to p=1.30.3 for both rRs priors, which is in agreement with the temperature profiles of simple thin disk models (p=4/3).